Collapsible child&#39;s carrier and seat



March 4, 1952 1305 2,587,688

COLLAPSIBLE CHILDS CARRIER AND SEAT 7 Filed NOV. 28; 1947 4 Sheets-Sheet l IN V EN TOR.

BY WW firm/Mays March 4-, 1952 P, 505 2,587,688

COLLAPSIBLE CHILD'S CARRIER AND SEAT Filed Nov, 28. 1947 4 Sheets-Sheet 2 IN V EN TOR. Jb/m P 305% March 4, 1952 Filed Nov. 28. 1947 J. P. BOSK COLLAPSIBLE CHILD'S CARRIER AND SEAT wiimmm 527 4 Sheets-Sheet 5 INVENTOR. Jbmv P Bosx as/wwzw J. P. BOSK COLLAPSIBLE CHILD'S CARRIER AND SEAT March 4, 1952 Filed Nov. 28. 1947 4 Sheets-Sheet 4 INVENTOR. :fOHN P Bar/r flrramve vs.

Patented Mar. 4, 1952 UNITED .s' 'mr125s. "r-

N'T GFFHCE This invention relates to a';collapsible carrier for; small children or infants and in particular to ,a collapsible carrier whichiis so .constnucted that it may be more easilyand quickly co'llapsed thanprior devices.

9Claims. Cl. 280-39) This application is copending withiny applica ti0n,. Serial No. 670,665, filed May 18, 1946 now Patent No. 2,549,958, npril 24,1951 and forms an ,improvenienton the collapsible .infant carrier disclosed in that application.

An object of this invention is to provide an improved infant carrier that is readily collapsible into a relatively small compact and conveniently- .sizedarticle that can be transported, and upon reaching the destination can readily be set up to provide awheeled body having a seat on which a child orinfant may be positioned, the bodyfhaving upstanding sides and a back rest connected thereto the back rest being equipped with a handle by which the wheeled body may be propelled.

.A main object of this invention is to provide an, infant carrier as described above in which the wheels are so mounted on the body of thecarrier and associated with the backrest that when the back rest is folded down on the body of'ithe carrier, the wheels are moved up into a recess use, some of the wheels are positioned'behind the:infant carrier body thereby obtaining greater stability for thecarriage as a whole, and prov-iding means for connecting the wheels to the back restof the infant carrier whereby when the back rest is folded down on the carrier bodyfthe-wheels aremeved up into a recess provided-in the carrier body." With the-foregoing and other objects in-view, which will bemade manifest in the following deta'iled description and specificallypointedout in l the appended claims, reference is had-to the accompanying drawings for an illustrative embodi- -ment-of the invention, wherein:

Fig. 1 is a. view in end elevation of theimproved infant carrier in its fully. collapsed position;

-Fig..-2 :is a bottom view-of the. improved-child carrier inits fully collapsed position;

- Fig. 13. is an enlargedsectional =viewpalongglines 3+3 of Fi .2;

-. 1.371514 is anenlarged: sectional view: along. lines 4-94 of Fig. 2;

Fig. '5 is a side elevation view of the improved infant carrier showing the carrier in ..its seteup; 1

condition infull lines and in partial closed position in dot-dash lines;

Fig.6 is a front elevation view of the improved infant carrier shownin full lines and-illustrating in dot-dash one front wheel in a rotated position;

Fig. 7 is a sectional view along lines 1-4 of ,Fig. 6 in,the direction of the arrows;

.Fig. 8 is an enlarged sectional view alongl'hes 8- 8 of Fig. 6 in the direction of the arrows;

Fi 9 is an enlarged sectional view along lines .'9-9 of Fig. 6 in the direction of the arrows;

Fig.10is'a sectional view along lineslO-lll of Fig. 9 in the direction of the arrows;

Fig. 11 is an enlarged sectional view along lines Il--ll o'f FigjG;

Fig. 12 is a sectional view along lines 12-42 of Fig. 6 showing the method of mounting the infant carrier wheels in full lines and the seat construction in dot-dash lines;

Fig. 13 is an enlarged sectional view along lines i'3l3 of Fig. 12 showing in full lines a'rear wheel in set-up condition and in dot-dash lines the wheel in collapsed position; and

'Fig. 14 is an enlarged sectional View along lines ld -i l of Fig. 5 showing the locking mechanism for the arm rests.

Referring to the accompanying drawings wherein similar reference characters designate similarfparts throughout, the improved child carrier consists of a body'gene'rally-entitled A having-a channel section forming a back I andsides 2, said sides having their upper front portions cut away and rounded, as shown in Fig."5,-a-nd the edges of these portions of the sides '2 are reversely bent to create reversely bentportions 3, see Fig. 12. The loweredged portions of the channel section of body A are reversely bent-to form reversely bent portions 4 on back'l and" 5 the side right angle marginal flanges of a-bottom -l may therein and be fastened in place by welding, riveting or other suitablemeansto form a lower recess or cavity into which'the wheels of the infant carrier are positioned when the inf-ant carrier is in its collapsed position and an :of angular-shape, astcan 'be. seen by reference to Figs. .4 andx']. :Siderails It!)v arefastenedto as.-.sh,o w,n in Figs. .S and 14, an vextentsuch ;as

to meet the top. ed es of; sides 2. Rearrail H is fastened to back i, as shown in Figs. 4 and '7. Seat 9 comprises a sheet metal base having a cushion l3 mounted thereon and this base is provided with spaced perforations permitting angular tabs l5 to be fastened thereto, as shown in Fig. 8, and these tabs are provided with perforations into which secondary bent tabs l6 catch so that the cover or seat 9 is detachably connected to the carrier body and may be removed at will when it is desired to remove something from the storage compartment.

A foot and leg rest is provided for the infant carrier and i formed by bending the front margin of the sheet metal base downwardly at an obtuse angle and connecting foot rest member I! thereto by means of pivot it, as can be seen by reference to Figs. 5 and 12. Foot rest member I! is bent outwardly and upwardly to form a place on which the infant may place his feet and M this foot rest member is positioned at the, proper place by bumpers 2|], see Figs. 2 and 5. Each of the bumpers 20 is formed of an'inner member 21 and an outer member 22 of resilient construction. Outer members 22 are preferably provided with rubber cushions 23 and curved, as shown in Fig. 5,

The resilient bumpers also serve as clips into the concave portions of which fit a tubular handle as will be described.

The front wall 28 has a three sided angular shape and is fastened to sides 2 by means of bent tabs 29 and 30 provided on said front wall, which 1 tabs are preferably riveted to sides 2 so as to position one side of said front wall vertically so that it abuts against the front right angle marginal flange of bottom I, positions the middle side angularly and the other side horizontally, as best shafts as clearly shown in Fig. 2, this construction allowing easier manipulation of the infant carriage and also insuring that the front wheels wall always be in proper position to be folded up into the bottom recess when it is desired to collapse the infant carriage. Rear wheels 46 and 41 are rotatably mounted in the bifurcated ends of knee braces 60 and 6|, said knee braces being pivoted by other bifuroatedends on the rocker shafts 50 and 5| respectively, as can best be seen by reference to Fig. 13. Each of the rocker shafts is rotatably supported in front supporting plate 32 at one end thereof and rotatably supported in rear supporting plates 33 and 34 at the other end thereof, as can best be een by reference to Fig. 12. It will be noticed from Fig. 12 that when the 4 rear wheels 46 and 41 are in their uncollapsed or set-up condition they are partially behind the infant carriage body A, such construction insuring greater stability to the infant carriage since by reference to Fig. 5 it can be seen that the propelling means is also back of the body A and the positioning of the rear wheels insures that no downward pressure on the handle of the infant carriage will tip it over rearwardly. The knee braces 60 and SI for the rear wheels have guidand straddle its respective knee brace. The guiding members are so designed and positioned on body A that they constrain knee braces 60 and GI to move from their recessed'position, as shown in Fig. 2, downwardly and backwardly to the position shown in Fig. 12 so that this construc tion allow the rear wheels to be positioned rearwardly of the body A during use of the infant carriage and allowing convenient storage of the rear wheels within the lower recess so as to create a verycompact unit when it is desired to collapse seen by thefull lines in Fig. '12. The bottom edge of the vertical portion of front wall 28 is reversely bent, as shown in Fig. 12, and a front supporting plate 32 is provided within the lower recess of body A, and this plate and right angle marginal flange of bottom 1 and the vertical portion of front wall 28 are fastened together by riveting,

welding or other suitable means.

Rear supporting plate 33 and 34 are provided inbody A and are spaced from one another by spacing plates 35 and 36, see Fig. 3, and fastened together andto the back I of body A by nuts 31 and bolts 38, said bolts being provided with spacers 39 to properly space the rear supporting plates from the back I of body A, as best seen by A reference to Figs. 2 and 4. Wheels 44, 45, 46 and 41 of identical construction are provided on body A to enable theinfant carriage to be freely moved about. Wheels 44 and 45 which are the front .wheels of the infant carriage are rotatably mounted in the bifurcated ends of knee braces 48 and 49 respectively, cause said knee braces to be rotatably mounted on rocker shafts 50 and 5| respectively by stub shafts 52. and 53 respectively, thereby allowing said front wheels to be freely -rotated, as shown in the dot-dash lines in Fig. 6,

the infant carriage and either store it or transport it to another place. I Rocker shafts-50 and 5! are operatively connected to a back rest generally entitled B by a gear and linkage system, as best seen by com-- .parison of Figs. 3 and 7, parts of which system and 34.

are mounted between rear supporting plates 33 Quarter gears 66 and 61 are fixedly fastened on the ends of rocker shafts 50 and 5| l respectively so as to be positioned between rear supporting plates 33 and 34, see Fig. 3, and mesh with spur gears 68 and 69 respectively, said spur gears being rotatably mounted on shafts 10 an between rear supporting plates 33 and 34. During part of the movement of the quarter gears,

as shown in dot-dash lines in Fig. 3, they will be within'an aperture in a leaf spring 18. Rear supporting plates 33 and 34 are slotted at and 8! respectively to permit stub pin H to reciprocate freely between said rear supporting plates. Leaf spring 18 is permanently fastened to a link bar 83, said bar beingpositioned on the outside '01 rear supporting plate "amnes a ofand links 8"! and 88am provided with slots to fit these stub portions, as best seen by reference to Figs. 3 and'I, said link being of angular shape with the upper ends thereof being pivotally fastened to the back rest B by means of pivot plates 89 and 99. Back rest B is pivoted by means of pivot 9 I to back Iof body A and it will be seen that when back rest-B is moved'from its rearward position down onto body A, links 81 and 88 will cause link bar 83 to move downwardly thereby moving rack it downwardly thereby rotating spur gears 68 and 69 which in turn rotate quarter gears 06 and 5! thereby rotating rocker shafts i -'50'-and--5 'I so thatwheels 44, 45, and 4'! are "folded up under body A within the lower recess thereof.

Back rest B-compr-ises a sheet metal back 95 the sides of which-are reversely bent .to .form

tubes-96and-9i, as can best be seen by reference to Figsj-6 and- 1-1,an'd into these tubes the legs 99 "and I00 of-a handle generallyentitled C slide. lhe legs 99 and *I 00 of handle C are preferably formed of' tubular metal and have perforations a-t spaced intervals so'that the handle may be lo- '-'cated in several differentpositions with the aid bf a locking mechanism which fits within the perforations in the legs. The locking mechanism is hous'ed -withinthe reversely .bent top portion of p the sheet metal back 95, as can best be seen by urefere'noe to -Figs. -6 and 9, and comprises rods IOI and I02 which are z-angularly bent at one end ofeach so asto protrude (through slotted portions ofshee't 'metal back 95 and tthrough,..apertures -provided within tubes 95 and Bi-and are. urged to bear against legs Y99 and .I.0.0 of handle 0 by a spring I03 which is housed/within the upper reversely b'ent portion .of .the sheet .metal back 95 ":and surrounds two .ends of rods I01! and I02, as "'abe'st seenin Fig. .10.. lFingerjholdsIM and I05 are fastened adjacent the ends v.of rods I0! and I92 and the reversely upper bent portion of sheet metalback 951s slotted, as shown in Fig. 10, so

that finger holds I04 and I05 vabut against the --:.separateipo'rtions of the upper reversely bent porition under the pressure ofspring I93. It will be :seenthatrwhen .thefifinger holds are pressed toigether that rods I0.I and I02 will be moved toward one anotherso that they will withdraw from the perforations in legs 99 and I00 permitting :saidlegs to be moved upwardly or downwardly and theends of rods IOI and I02 are then allowed to enter other perforations in legs 99 and I00 to position handle C in another place.

Handle C comprises legs 99 and I00 and a handlebar I08 which is pivoted to legs 99 and we, ..as shown in Fig. 6. Handlebar I 08 is reversely bentiso that a middle portion of the handlebar Z3615 formed which is inwardly of the outmost exv 1 :r-tremities of said handlebar. Spring constraining .locking clips H0 and III are pivoted on opposite "ends of handlebar I08 and each locking clip is urged by ;a spring which in the case of locking tons.

6 dlebar may beposi tioned inone-.or'several different positions this construction-enabling handlebarlI 08-to be folded atapproximately:rightangles to legs 99 and-I00 When backrrestrB.isfolded down on body Aand the reversely bentportions of handlebar I08 fitw ithin the'concaveaportions of bumpers 20, as best seenby referencetoFig. ;1,

- and in this position the middle portion of handlebar I08 is approximately above the horizontal centen of the collapsed carrier :so that "the collapsed :carrieriseasily .carried.

:ArmTests I I 5 *areprovidedtfor the infant carriage: an'd iarex pivotally mounted to back :rest 13 on tubes 96 and 9.1 :by; means of brackets ,IIIi.

'Ihese arm restsrare'reversely bentand the .re-

- versel-y bent .ends are guided withinguides I .I "I, *asseen in Fig. .5. There :isia .lockingmeans providednn. the endof aeachzarmirest which can best .means locks: the arm'restsinithe upmost position .until operating a releasing means on the locking means. Guides I I! areslotted longitudinally and the ends thereof are bent angular-1y such that when these ends are fastened to sides 2 :aszby riveting or spot welding the main body of the guides will be spaced from the sides 2, as can be .seen by reference to Fig. 14. Arm rests H5 are preferably of hollow "tube construction and the reversely bent ends'thereof .are preferably pressed together, see .Fig. 6,' and locking spools IIS are securely fastened to the pressed ends of the arm v:rests. .Spools I I9 have a main body from which extends inwardly buttons I20 and these buttons are of greater :diameter than the width of the slots in guides H1 and may be fitted through guides I I] by pressing opposite sides of the guides in opposite directions and once the buttons I29 are through the guides I I! they are securely but slidably held by said guides. The dimensions of guides II? and buttons I20 are such that there :is aspace betweenthe inner surfaces of said buttons .and the sides .2 and this space is large enough so that leaf springs I2I may slide between-sides .2 .and the inner surfaces of said but- However, said leaf springs areinitiallyiso rformedrand-fastened to sides 2 by .means of rivets pressed "inwardly ai'sufficient distance that leaf springs 'I2I will be pressed downagainst sides 2 and nnder'th'ese conditions the spools 1 i9 and buttons I20 may slide over leaf springs IZ-I there- 'by allowingarm rests "M5 to slidedow-nin guides Iilthereby allowing back rest B to be folded down ontop of body A of theinfant carrier.

A feeding-tray I21 may be provided on arm rests II 5 and maybe detachably connected thereto by any "suitable means such as springconstraining detents so that the feedingtray may be removed when an "infant is to be placed within the carriage-andsithen set in place and this feedin'r tray serves the dual'purpose'of-preventing the infant from falling or moving out of the carthat the back rest and handle C will be riage and as a convenient place from which the infant may be fed.

to a convenient height to enable the infantcarriage to be readily propelled and on release of the finger holds the ends of rods IM and 102 move within perforations provided in legs 99 4 and I00 thereby locking the legs and handle in the extended position. The reverse operation may be performed when it is desired to collapse the infant carriage and when the finger hold releasing operation is performed the handle and legs will assume the position as shown in Fig. 5.

The tees I24 of the arm rest locking mechanism are then pressed inwardly depressing leaf springs l2l and allowing the arm rests H5 to be moved down within the arm rest guides Ill, allowing back rest B to be moved toward the right of the drawing, as the infant carriage is depicted in Fig. 5, and this movement of the back rest moves links 81 and 88 downwardly, thereby moving link bar 83 downwardly, rotating spur gears 68 and 69, thereby rotating rocker shafts 3 50 and Si which rotation draws the front wheels 44 and 45 upwardly within the recess and causes the rear wheels to move upwardly within the recess, said rear wheels being guided by rear wheel guiding members 63 and 64 and this movement of the back rest is 'continued until the back rest is folded against body A, as shown in Fig. 1. Under these conditions the back rest is slightly sprung so that it has a tendency to move away from body A and it will be seen that when looking clips H0 and III on handlebar I08 are depressed permitting the handlebar to be pivoted downwardly enabling the reversely bent portions thereof to fit under bumpers 2g hel securely in their collapsed position until released therefrom by manual depression of handlebar 108 to enable said handlebar to be' moved out of the bumpers. It will be seen therefore that thereare locking means provided in the infant carriage to securely lock the infant carriage in its set-up condition and also locking means to lock the infant carriage in its collapsed condition.

' It will be appreciated that the present in- .vention provides a collapsible infant carrier which can be set up and collapsed with a minimum number of operations; namely, merely pressing the locking tees in and moving the back rest down on the top of body A which movement automatically causes the wheels of the infant carriage to be moved up and stored within the lower recess so that a compact unit is obtained which may be easily transported from place to place. It is also a very simple operation to set up the collapsible infant carriage which operation merely requires that the handlebar be moved out from under the bumpers and the back rest unfolded thereby automatically moving the wheels from their recessed position to their set-up position and the locking means on the arm rests are such that they automatically lock the back rest in its set-up position.

Various changes may be made in the details of construction without departing from the spirit and scope of the invention as defined by the appended claims.

I claim:

1. In a device of the class described, a body, rocker shafts mounted in said body, wheel mountings mounted on said rocker shafts, each of said wheel mountings having a wheel rotatably mounted thereon, a back rest connected to said body, arm rests connected to said back rest and slidably engaging said body, lock means so associated with said arm rests and said body that when said back rest is moved to its 'set-up position said lock means operates to lock said back rest in said position, and means so connecting said back rest to said rocker shafts that when said back rest is released from its set-up position rendering the locking means inoperative and moved down on said body thatsaid rocker shafts are rotated to swing said wheels upclose to the bottom of said body.

2. In a device of the class described, a body, rocker shafts extending longitudinally of the body and supported by the body for rockingmovement. wheels for supporting the body, wheel mountings carrying the wheels pivotally mounted on the rocker shafts for movement through planes containing the longitudinal axes of the rocker shafts and positioning the wheels in the mentioned planes, means for causing the rocker shafts to rotate in either of two directionsto bodily move the wheel mountings, and guides for guiding the wheel mountings during their bodily movement to cause the wheel mountings to optionally assume vertical positions behind the body or horizontal positions beneath the body.

3. In a device of the class described, a body, rocker shafts extending longitudinally of the body and supported by the body for rocking movement, wheels for supporting the body, wheel mountings carrying the wheels pivotally mounted on the rocker shafts for movement. through planes containing the longitudinal axesof the rocker shafts and positioning the wheels in the mentioned planes, a back rest mounted for folding movement on the body, means operatively connecting the back rest and the rocker shafts responsive to folding and unfolding movements of the back rest for causing the rockershafts to rotate in either of two directions to bodily move the wheel mountings, and guides straddling the wheel mountings for guiding the wheel mountings during their bodily movement to cause the wheel mountings to optionally assume vertical positions behind the body on horizontal positions beneath the body.

4. In a device of the class described. a body, rocker shafts extending longitudinally of .the body and supported by the body for rocking movements, wheels for supporting the body pivotally connected to the rocker shafts for movement through planes containing the longitudinal axes of the rocker shafts, means for causing the rocker shafts to rotate in either of two directions to bodily move the wheels, and guides for guiding the mentioned wheels during their bodily movement to cause the wheels to optionally assume vertical upright positions behind the body or horizontal positions beneath the body.

5. In a device of the class described, a body, rocker shafts extending longitudinally of the body and supported by the body for rocking movements, wheels for supporting the body pivotally connected to the rocker shafts for movement through planes containing the longitudinal axes of the rocker shafts, a back rest mounted for folding movement on the body, means operatively connecting the back rest and the rocker shafts responsive to folding and unfolding movement of the back rest for causing the rocker shafts to rotate in either of two directions to bodily move the wheels, and guides for guiding the mentioned wheels during the bodily movement to cause the wheels to optionally assume vertical upright posi tions behind the body or horizontal positions beneath the body.

6. In a device of the class described, a body, rocker shafts supported from the body for rocking movement, wheels pivotally connected to the rocker shafts for supporting the body, means for causing the rocker shafts to rotate in either of two directions to bodily move the wheels, and guides for guiding the mentioned wheels during bodily movement to cause the wheels to optionally assume vertical upright positions behind the body or horizontal positions beneath the body.

7. In a device of the class described, a body, rocker shafts supported from the body for rockin'g movement, wheels pivotally connected to the rocker shafts for supporting the body, a back rest mounted for folding movement on the body, means operatively connecting the back rest and the rocker shafts responsive to folding and unfolding movements of the back rest for causing the rocker shafts to rotate in either of two directions to bodily move the wheels in either of two directions, and guides for guiding the mentioned wheels during their bodily movement to cause the Wheels to optionally assume vertical upright positions behind the body or horizontal positions beneath the body.

8. In a device of the class described, a body having a recess in the under side thereof, wheel mountings carrying the wheels for rotation about axes transverseto the longitudinal axes of the mountings but preventing bodily movement of the wheels relative to the mountings, the wheel mountings being connected to the under side of the body for universal movement relative to the a back rest mounted for folding movement on the body, means operatively connecting the back rest and the wheels responsive to folding and unfolding movements of the back rest for causing bodily movements of the wheels in either of two directions, and means for guiding the mentioned wheels during their bodily movement to cause the wheels to optionally assume vertical upright positions behind the body or horizontal positions beneath the body.

JOHN P. BOSK.

REFERENCES crrnn The following references are of record in the file of this patent:

UNITED STATES PATENTS Number Name Date 863,972 Ehlers Aug. 20, 1907 938,498 Moore Nov. 2, 1909 1,123,908 McGill Jan. 5, 1915 1,135,383 Knudsen Apr. 13, 1915 1,140,085 Turner May 18, 1915 1,438,466 Taylor Dec. 12, 1922 1,591,681 Pinheiro July 6, 1926 1,599,505 Wheatley Sept. 14, 1926 1,653,533 Ambler Dec, 20, 1927 2,068,295 Kramer Jan. 19, 1937 FOREIGN PATENTS Number Country Date France Jan. 9, 1937 

